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EP0551265A1 - A device in vehicles. - Google Patents

A device in vehicles.

Info

Publication number
EP0551265A1
EP0551265A1 EP91906714A EP91906714A EP0551265A1 EP 0551265 A1 EP0551265 A1 EP 0551265A1 EP 91906714 A EP91906714 A EP 91906714A EP 91906714 A EP91906714 A EP 91906714A EP 0551265 A1 EP0551265 A1 EP 0551265A1
Authority
EP
European Patent Office
Prior art keywords
chassis
vehicle
load carrier
carrier arrangement
rear chassis
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP91906714A
Other languages
German (de)
French (fr)
Other versions
EP0551265B1 (en
Inventor
Peter Eriksson
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from SE9000983A external-priority patent/SE467965B/en
Application filed by Individual filed Critical Individual
Publication of EP0551265A1 publication Critical patent/EP0551265A1/en
Application granted granted Critical
Publication of EP0551265B1 publication Critical patent/EP0551265B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G23/00Forestry
    • A01G23/003Collecting felled trees
    • A01G23/006Log skidders
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G23/00Forestry
    • A01G23/003Collecting felled trees
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62DMOTOR VEHICLES; TRAILERS
    • B62D53/00Tractor-trailer combinations; Road trains
    • B62D53/02Tractor-trailer combinations; Road trains comprising a uniaxle tractor unit and a uniaxle trailer unit
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B62LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
    • B62DMOTOR VEHICLES; TRAILERS
    • B62D61/00Motor vehicles or trailers, characterised by the arrangement or number of wheels, not otherwise provided for, e.g. four wheels in diamond pattern
    • B62D61/10Motor vehicles or trailers, characterised by the arrangement or number of wheels, not otherwise provided for, e.g. four wheels in diamond pattern with more than four wheels

Definitions

  • the vehicle is in particular a load vehicle, which is especially adapted for cross-country driving.
  • the vehicle may for example be a forest vehicle for transport of wood products or- for carrying tree or tree trunk processors.
  • the wheels or the like carrying the rear chassis member having the load carrier arrangement are arranged as bogies, i.e. with at least two wheels on each side of the vehicle suspended in a carrier pivotal on the vehicle, the pivot axis of which is located in the region between the axis of rotation of the two wheels. Accordingly, the wheels may not be steered, which gives rise to a considerable amount of friction between the wheels and the ground when the vehicle turns in a curve, since the wheels compulsorily have to be laterally dragged with respect to the ground so as to be able to follow the curve. This frictional resistance on taking curves will of course be as small as possible if the wheels are arranged so close together as pos ⁇ sible on each side of the vehicle.
  • the object of .the present invention is to start from the art referred to in the preamble of claim 1 and show constructional solutions adapted to give the vehicle flexibility on taking curves and in other respects good driving manners.
  • the wheels of the vehicle are individually suspended by means of pivot arms vertically pivotal. Because of that it will be possible to have fairly great distance between the wheel units of the chassis portions on each side of the vehicle.
  • the load carrier arrangement is advantageously arranged on the front and rear chassis portions of the rear chassis member in the way defined in one or several of the claims 6-11 and 15-27, whereby the load carrier arrangement may be efficiently carried by the chassis portions at the " same time as they may pivot with respect to each other. It is preferred that power means are arranged for determining the pivot angle between the front and rear chassis portions of the rear chassis member. A particularly uniform and smooth running on movement of the vehicle over an irregular ground is obtained when the device according to the invention is designed as defined more in detail in the appended claims 13 and 14.
  • Fig 1 is a side elevation of a six wheel vehicle constructed according to the invention
  • Fig 2 is a view from above of the vehicle, but the crane is . not shown,
  • Fig 3 is a schematic view similar to Fig 2 but illustrating the vehicle when it turns,
  • Fig 4 is a schematic and partially sectional view of the vehicle as seen from behind, i.e. from the right in Fig 1,
  • Fig 5 is a section taken along V-V in Fig 4,
  • Fig 6 is a circuit diagram showing the circuit of cylinders connected to wheel carrying pivot arms when the vehicle is intended to move over an irregular country
  • Fig 7 is a circuit diagram similar to Fig 6 but illustrating the device on an eight wheel vehicle
  • Fig 8 is a view similar to Fig 1 of a slightly modified embodi ⁇ ment and Fig 9 is a purely schematic view illustrating a part of the vehicle according to Fig 8 from above, some parts being cut away or omitted.
  • the vehicle illustrated in Fig 1-5 is intended for cross country driving and has six wheels 1-6, three of which l, 3, 5 and 2, 4, 6, respectively, are arranged on each longitudinal side of the vehicle.
  • Each wheel is individually suspended in a chassis 7 of the vehicle by means of a respective vertically pivotal pivot arm 8-13.
  • each of the pivot arms is pivoted with respect to the vehicle chassis 7 about an axis 14 extending substan ⁇ tially horizontally and transversally with respect to the longitudinal direction of the vehicle.
  • Each separate, wheel (see the wheel 5 in Fig 1) is rotatably mounted in bearings on the respective pivot arm about an axle 15, which is located at a distance from the pivot axis 14 of the pivot arm and substan ⁇ tially parallel thereto.
  • a motor for instance an hydraulic motor for driving the wheel carried by the pivot arm in ques ⁇ tion, may be arranged on each of the pivot arms 8-13.
  • An hydraulic cylinder 16, 17, 18, 19, 20 and 21, respectively, is arranged between each of the pivot arms 8-13 and the vehicle chassis 7.
  • Each of the hydraulic cylinders is in this example pivotally connected between the respective pivot arm and the vehicle chassis, so that on extension of an hydraulic cylinder the pivot arm associated therewith will be pivoted so that the vehicle chassis is lifted.
  • the hydraulic cylinders have two hydraulic fluid rooms 28-33 and 34-39, respectively, located on opposite sides of a piston 22-27 of the respective cylinder. In a first 28-33 of these rooms there is pressurized hydraulic fluid so as to counteract such pivoting of the pivot arm in question that the wheel arranged thereon is raised with respect to the vehicle chassis. .
  • the pivot arms are in Fig 1 illustrated in a position, in which the pivot arms extend substantially horizontally.
  • the pivot arms may from this position by means of the hydraulic cylinders be pivoted downwardly with respect to the chassis about the axis 14, so that the vehicle chassis is raised with respect to the ground.
  • the pivot arms may in an analogous way be pivoted at least slightly upwardly from the position according to Fig 1, so that the vehicle chassis may be lowered with respect to the ground.
  • the pivot arms 8-9 are so arranged that the wheel' axle 15 as seen in the normal moving direction M of the vehicle is located in front of the pivot axis 14 of the corresponding pivot arm with respect to the chassis. However, the axles 15 are located behind the pivot axis 14 for the pivot arms 10-13.
  • the hydraulic cylinders 16-21 are for cross country driving coupled or may be coupled for mutual cooperation in the closed circuit illustrated in Fig 6.
  • the hydraulic fluid volume in the circuit is suitably so adjusted that the vehicle, when it is located on a ground being substantially horizontal, has its pivot arms 8-13 located in such an intermediate position -that the pivot arms have freedom to move for pivoting downwardly as well as upwardly.
  • cylinders 16, 18, 20 and 17, 19, 21, respectively, of the pivot arms arranged on each side of the vehicle have their first rooms 28, 30, 32 and 29, 31, 33, respectively, communicating with each other by means of a conduit 40 and 41, respectively.
  • the rooms 28, 30, 32 on one side of the vehicle are separated from the rooms 29, 31 ' , 33 on the other side of the vehicle.
  • the front end of the vehicle is in Fig 6 indicated by F, while the rear end is indicated by B.
  • the wheels 1-6 suitably form three pairs, each of which has wheels arranged directly opposite each other on opposite sides of the vehicle.
  • the hydraulic cylinders 16, 17 for the two front pivot arms 8, 9 have their second hydraulic fluid rooms 34, 35 communicating with each other through a conduit 42.
  • conduits 43 and 44 which establish communication between the second hydraulic fluid rooms 36, 38 and 37, 39, respectively, of the respective cylinder.
  • connection 45 joining the conduits 43, 44 and more exactly achieving that all the second rooms 36-39 of the four rear cylinders 18-21 communicate mutually.
  • a driver compartment 46 for instance a cabin, is in the example arranged close to the front end.
  • the vehicle has a load carrier arrangement 47, which in the illustrated case of a wood transporting vehicle may comprise conventional timber embankments and posts.
  • the vehicle has a front member 48 and a rear member 49, said members being mutually interconnected by means of a hinge forming a substantially vertical axis 51.
  • the members 48, 49 may by means of power means, for example hydraulic cylinders 52, be rotated with respect to each other about the axis 51 for stee ⁇ ring the vehicle.
  • the front member 48 has in this case two pivot arms 8, 9 carrying wheels, while the rear member 49 has four pivot arms 10-13 carrying wheels.
  • the closed circuit according to Fig 6 functions in the following way on driving in an irregular country: when for instance the vehicle starts from a horizontal position according to Fig l and drives over a stone or an elevation with the left front wheel 1, the corresponding pivot arm 8 will be pivoted upwardly with respect to the chassis while compressing the corresponding hydraulic cylinder 16.
  • An automatic balancing of the cylinders 18 and 20 takes place by the fact that the one indicated by 18 will be extended and accordingly pivot its pivot arm 10 downwardly more than the. hydraulic cylinder 20.
  • the volume of the rooms 36, 38 of the cylinders 18 and 20 is at the same time reduced, so that hydra ⁇ ulic fluid is pressed through the conduits 43, 45 and 44 into the rooms 37, 39 of the cylinders 19, 21 arranged on the other side of the vehicle.
  • the cylinder 16 of the wheel going over the stone will be shortened, the rear cylinders 18, 20 on the same side will be extended, the cylinders 19, 21 located opposite thereto on the other side of the vehicle will be shortened and the cylinder 17 opposite to the cylinder 16 on the other side of the vehicle will be extended.
  • Fig 7 corresponds to the one illu ⁇ strated in Fig 6 excepted for that two further cylinders 53, 54 are illustrated here, which in the practice could be arranged on the front vehicle member 48 illustrated in Fig 1 besides the cylinders 16 and 17 already located there.
  • the cylinders 53 and 54 cooperates in an analogous way with pivot arms, which carry wheels and are constructed in principally the same way as the pivot arms 8-13 described above.
  • the hydraulic fluid rooms 55, 56 of the cylinders 53, 54 are through conduits 40 and 41, respectively, united with the other corresponding hydraulic fluid rooms of the cylinders on the same respective side of the vehicle.
  • the other hydraulic fluid rooms 57 and 58, respecti ⁇ vely, in the cylinders 53, 54 are through conduits 59 and 60, respectively, united with the second hydraulic fluid rooms 34 and 35, respectively, of the adjacent cylinders 16 and 17, respectively.
  • connection 42 which connects all second hydraulic fluid rooms 34, 35, 57, 58 in the cylinders belonging to the four front pivot arms carrying wheels of the vehicle together.
  • the rear chassis member 49 comprises two chassis portions 61, 62, namely a front 61 and a rear 62, which are mutually pivo ⁇ tally interconnected through a hinge 63 forming a substantially vertical pivot axis.
  • the front chassis portion 61 has pivot arms 10, 11 and the wheels 3., 4 carried thereby, while the rear •chassis portion 62 has pivot- arms 12, 13 and wheels 5, 6.
  • the pivot arms 10, 11 and 12, 13, respectively, on the chassis portions 61, 62 of the rear chassis member 49 are facing or directed in the same direction, namely rearwardly.
  • the pivot arms 8, 9 on the front chassis member 48 are directed forwardly in the normal driving direction of the vehicle.
  • the words "forwardly” and “rearwardly” concern the main direction of the pivot arms from their pivot axis 14 and to their free ends, and it is of course comprised that the pivot arms may be more or less inclined with respect to the horizontal plane.
  • the pivot arms 10, 11 on the front portion 61 of the rear chassis member 49 have their pivot axis 14 located close to the front end of the last mentioned chassis portion 61. Also the pivot arms 12, 13 on the rear chassis portion 62 have their pivot axis 14 arranged at the front end of the rear chassis portion.
  • the load carrier arrangement 47 comprises in this example the timber embankments 64 and posts 65 already mentioned.
  • the arrangement 47 may also comprise a conventional gate 66, a central longitudinal beam 67 and two further longitudinal beams 68 (Fig 4). It will be suitable to have the embankments 64 dis- placeable along the beams 67, 68 and securable in desired posi ⁇ tions, although this does not appear from Fig 4. It is preferred that the load carrier arrangement 47 forms a rigid continuous unit.
  • the load carrier arrangement 47 is rotatably connected to the chassis portion 61 by means of a connection 69 forming a sub ⁇ stantially vertical axis of rotation 70.
  • the arrangement 47 comprises a portion 71 projecting in front of the gate 66, said connection 69 being arranged at this portion. It is for the rest located in the proximity of the front end of the chassis portion 61, for instance immediately behind the axis of rotation 51.
  • connection 72 (Fig 2 and 4) forming a substantially vertical axis of rotation 73.
  • the connection 72 is arranged in the region of the rear end of the arrangement 47 and of the chassis portion 62. At least one of the connections 69, 72 are arranged to allow relative movement of the arrangement 47 and the chassis portion in question in the longitudinal direction of the arrangement 47 or the chassis portion.
  • the rear connection 72 is the one that is designed to allow this longitudinal movement.
  • the connection 72 comprises a first connecting means 74 on the load carrier arrangement 47- and a second connecting means 75 on the chassis portion 62.
  • the means 74 has the form of a guide extending along the arrangement 47, along which guide the means 75 is displaceably movable on relative pivoting of the chassis portions 61 and 62.
  • the guide 74 is in the example arranged in the beam 67 of the load carrier arrangement. This may have the character of a box girder, which have an internal, room and a slit 76 in its lower wall.
  • the means 75 has the character of an extension fixed on the chassis portion 62, said extension having a shaft portion received in the slit 76 and a head having a larger width than the slit 76 and being received in the internal room of the beam 67.
  • the shaft portion of the extension 75 forms in cooperation with the slit 76 the vertical axis of rotation 73 and the head of the extension cooperates with a portion of the beam 67 adjacent to the slit 76 so as to establish a connection preventing the load carrier arrangement from tilting laterally with respect to the chassis portion 62.
  • the chassis portion 62 is arranged to support a projecting portion of the load carrier arrangement 47 from below.
  • a support plate 77 is arranged on the chassis portion 62 and the beam 67 bears displaceably thereon.
  • the vehicle has a loading crane 78.
  • This has a base member 79 which is rotatable about a substan ⁇ tially vertical axis. It is intended that this axis in this example coincides with the axis 70.
  • the device may be such that the load carrier arrangement 47 is rotatable with respect to the chassis portion 61 by means of a suitable axis arrangement and furthermore, the crane 78 is rotatably carried by the load carrier arrangement 47, more exactly by its front portion 71.
  • a device may also be such that the crane 78 is not carried by the load carrier arrangement 47 but by an axis arrangement secured on the chassis portion 61 and projecting through the load carrier arrangement 47.
  • the load carrier arrangement 47 would have a free bearing extension between the connection 69, 72.
  • further support points may be arranged between the load carrier arrangement.47 and the chassis portion 61 and/or chassis portion 62, but these support points have to be designed so as to allow relative movement in the lateral direction of the vehicle between the load carrier arrangement and the respective chassis portions 61, 62.
  • the hinge 63 and preferably also the hinge 50 only allow rotation about a substantially vertical axis, i.e. not any rotation about any substantially horizontal axis.
  • Power means 80 act between the two chassis portions 61, 62 for determining the pivot angle therebetween.
  • the power means 80 are suitably adjustable in a "floating position", in which they allow free relative pivot movement between the chassis portions 61 and 62.
  • the power means 80 are furthermore arranged to by force pivot the chassis portions 61 and 62 with respect to each other in dependence of the pivot movement desired by the driver.
  • a controlling appara ⁇ tus acting automatically may be arranged to control the power means 80 to adjust the pivot angle between the chassis portions 61 and 62 in the same respect as the pivot angle produced by the power means 52 between the front chassis member 48 and the front chassis portion 61, but preferably so that the first mentioned pivot angle is smaller than the last mentioned one.
  • a load carrier arrangement 47 forming a rigid continuous unit. This comprises as in the previous embodiment load, embankments 64 which here are three in number, a gate 66 and stiffening beams 67, 68.
  • connection 69 which forms the substantially verti ⁇ cal axis of rotation 70 between the load carrier arrangement 47 and the front chassis portion 61 of the rear chassis member 49 is as before arranged at a portion 71 of the load carrier arrangement projecting in front of the gate 66 and furthermore so located that the axis 70 is concentric or almost concentric to the vertical axis of rotation formed by the hinge 50 between the front chassis member 48 and the front chassis portion 61 of the rear chassis member.
  • the loading crane 68 is as before connected to the load carrier arrangement 47 so as to follow this in the relative rotating movement between this and the chassis portion 61.
  • connection 69 is arranged at the front end of the front chassis portion 61 of the rear chassis member and the other connection 72 (compare with Fig 2 and 3) is arranged at the rear end of the rear chassis portion 62 of the rear chassis member and, accordingly, the distance may be considerable between the connection 69 and 72
  • the load carrier arrangement 47 is supported between the first and second connec ⁇ tions 69, 72 with respect to the front and/or rear chassis portion 61, 72 of the rear chassis member 49 by means of support means 81.
  • support means 81 is illustrated in the example as acting between the load carrier arrangement and the front chassis portion 61, but similar support means could also be arranged between the load carrier arrangement and the rear chassis portion 62.
  • the support means 61 suitably consist of rollers, which may be arranged in connection with one of the embankments 64, suitably the foremost.
  • These rollers 81 are in the example arranged on the load carrier arrangement so as to rolingly contact support surfaces 82 on the front chassis portion 61. It is preferred that the axes of rotation of the rollers at least substantially intersect the substantially vertical axis of rotation 70 (Fig 9) formed by the first connec ⁇ tion 69, whereby a regular rolling contact will be established between the rollers 81 and their supporting surfaces 82.
  • a condition for the function aimed at is that the hinge 63 between the front and rear chassis portions 61 and 62 of the rear chassis member 49 only allow relative movement " about a substan ⁇ tially vertical axis and not any relative rotation about any horizontal axis. The corresponding is for the rest valid also for the hinge 50.
  • the load carrier arrangement 47 will in other words be supported by the vehicle at its front and rear ends by means of the connection 69 and 72 and the support means or wheels 81 exert a bearing function against the chassis of the vehicle therebetween.
  • the device described may of course be modified in several ways within the scope of the inventional idea.
  • the vehicle may for instance have tracks known per se or arbi ⁇ trary ones for contact against the ground.
  • the load carrier arrangement 47 may have a very varying character. It could for instance have the character of a wagon-bridge or a container or any other carrier for an arbitrary load, e.g. machine equipment, such as forestry machines etc., arranged more or less stationary thereon.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Ecology (AREA)
  • Forests & Forestry (AREA)
  • Environmental Sciences (AREA)
  • Biodiversity & Conservation Biology (AREA)
  • Vehicle Body Suspensions (AREA)
  • Steering-Linkage Mechanisms And Four-Wheel Steering (AREA)
  • Handcart (AREA)

Abstract

Un véhicule porte-charge possède un châssis (7) constitué d'un élément de châssis avant (48) et d'un élément de châssis arrière (49). Ces deux éléments de châssis sont reliés l'un à l'autre par pivotement par l'intermédiaire d'une articulation (51) formant un axe de pivotement sensiblement vertical. Un ensemble porte-charge est disposé sur l'élément de châssis arrière (49), lequel comporte deux éléments de châssis (61, 62) reliés l'un à l'autre par pivotement par l'intermédiaire d'une articulation (63) formant un axe de pivotement sensiblement vertical. Chacun de ces éléments de châssis (61, 62) possède des roues ou analogues (respectivement 3, 4 et 5, 6).A load carrying vehicle has a frame (7) consisting of a front frame member (48) and a rear frame member (49). These two frame elements are connected to one another by pivoting via an articulation (51) forming a substantially vertical pivot axis. A load carrier assembly is provided on the rear frame member (49), which has two frame members (61, 62) pivotally connected to each other through a hinge (63). forming a substantially vertical pivot axis. Each of these frame elements (61, 62) has wheels or the like (respectively 3, 4 and 5, 6).

Description

A Device in Vehicles
FIELD OF THE INVENTION AND PRIOR ART
This invention relates to a device for vehicles according to the preamble of the appended claim 1. The vehicle is in particular a load vehicle, which is especially adapted for cross-country driving. The vehicle may for example be a forest vehicle for transport of wood products or- for carrying tree or tree trunk processors.
On such vehicles it is conventionally that the wheels or the like carrying the rear chassis member having the load carrier arrangement are arranged as bogies, i.e. with at least two wheels on each side of the vehicle suspended in a carrier pivotal on the vehicle, the pivot axis of which is located in the region between the axis of rotation of the two wheels. Accordingly, the wheels may not be steered, which gives rise to a considerable amount of friction between the wheels and the ground when the vehicle turns in a curve, since the wheels compulsorily have to be laterally dragged with respect to the ground so as to be able to follow the curve. This frictional resistance on taking curves will of course be as small as possible if the wheels are arranged so close together as pos¬ sible on each side of the vehicle. However, this gives rise to a deteriorated capability to drive in cross-country, since the risk of that two bogie wheels on one side of the vehicle may simultaneously be received in a hole in the ground will in¬ crease, which may cause the vehicle to get stuck. SUMMARY OF THE INVENTION
The object of .the present invention is to start from the art referred to in the preamble of claim 1 and show constructional solutions adapted to give the vehicle flexibility on taking curves and in other respects good driving manners.
This object is in accordance with the invention obtained by providing the device with the characteristics defined in the characterising parts of the appended claims, and in the first place of claim 1.
Thanks to the pivotal interconnection of the two chassis por¬ tions forming the rear chassis member, these will be able to pivot with respect to each other at least slightly on taking curves, which considerably improves the flexibility of the vehicle and in particular results in that the wheel units located on the rear chassis member may be arranged at a consi¬ derably greater mutual distance than usual in so called bogie arrangements. The increased mutual distance between the wheels on each side of the vehicle increases its carrying capacity without deteriorating the curve flexibility.
It is preferred that the wheels of the vehicle are individually suspended by means of pivot arms vertically pivotal. Because of that it will be possible to have fairly great distance between the wheel units of the chassis portions on each side of the vehicle.
The load carrier arrangement is advantageously arranged on the front and rear chassis portions of the rear chassis member in the way defined in one or several of the claims 6-11 and 15-27, whereby the load carrier arrangement may be efficiently carried by the chassis portions at the" same time as they may pivot with respect to each other. It is preferred that power means are arranged for determining the pivot angle between the front and rear chassis portions of the rear chassis member. A particularly uniform and smooth running on movement of the vehicle over an irregular ground is obtained when the device according to the invention is designed as defined more in detail in the appended claims 13 and 14.
BRIEF DESCRIPTION OF THE DRAWINGS
With reference to the appended drawings, below follows a speci¬ fic description of embodiments according to the invention cited as examples.
In the drawings:
Fig 1 is a side elevation of a six wheel vehicle constructed according to the invention,
Fig 2 is a view from above of the vehicle, but the crane is. not shown,
Fig 3 is a schematic view similar to Fig 2 but illustrating the vehicle when it turns,
Fig 4 is a schematic and partially sectional view of the vehicle as seen from behind, i.e. from the right in Fig 1,
Fig 5 is a section taken along V-V in Fig 4,
Fig 6 is a circuit diagram showing the circuit of cylinders connected to wheel carrying pivot arms when the vehicle is intended to move over an irregular country,
Fig 7 is a circuit diagram similar to Fig 6 but illustrating the device on an eight wheel vehicle,
Fig 8 is a view similar to Fig 1 of a slightly modified embodi¬ ment and Fig 9 is a purely schematic view illustrating a part of the vehicle according to Fig 8 from above, some parts being cut away or omitted.
DETAILED DESCRIPTION OF THE EMBODIMENT ACCORDING TO FIG 1-7
The vehicle illustrated in Fig 1-5 is intended for cross country driving and has six wheels 1-6, three of which l, 3, 5 and 2, 4, 6, respectively, are arranged on each longitudinal side of the vehicle. Each wheel is individually suspended in a chassis 7 of the vehicle by means of a respective vertically pivotal pivot arm 8-13. Thus, each of the pivot arms is pivoted with respect to the vehicle chassis 7 about an axis 14 extending substan¬ tially horizontally and transversally with respect to the longitudinal direction of the vehicle. Each separate, wheel (see the wheel 5 in Fig 1) is rotatably mounted in bearings on the respective pivot arm about an axle 15, which is located at a distance from the pivot axis 14 of the pivot arm and substan¬ tially parallel thereto. A motor, for instance an hydraulic motor for driving the wheel carried by the pivot arm in ques¬ tion, may be arranged on each of the pivot arms 8-13.
An hydraulic cylinder 16, 17, 18, 19, 20 and 21, respectively, is arranged between each of the pivot arms 8-13 and the vehicle chassis 7. Each of the hydraulic cylinders is in this example pivotally connected between the respective pivot arm and the vehicle chassis, so that on extension of an hydraulic cylinder the pivot arm associated therewith will be pivoted so that the vehicle chassis is lifted. As it primarily appears from Fig 6, the hydraulic cylinders have two hydraulic fluid rooms 28-33 and 34-39, respectively, located on opposite sides of a piston 22-27 of the respective cylinder. In a first 28-33 of these rooms there is pressurized hydraulic fluid so as to counteract such pivoting of the pivot arm in question that the wheel arranged thereon is raised with respect to the vehicle chassis. . The pivot arms are in Fig 1 illustrated in a position, in which the pivot arms extend substantially horizontally. The pivot arms may from this position by means of the hydraulic cylinders be pivoted downwardly with respect to the chassis about the axis 14, so that the vehicle chassis is raised with respect to the ground. The pivot arms may in an analogous way be pivoted at least slightly upwardly from the position according to Fig 1, so that the vehicle chassis may be lowered with respect to the ground. These pivot movements may be obtained in a way known per se, so that the vehicle in an irregular or inclining country is positioned substantially horizontally. Since this technique is known per se, it will not be described more in detail.
The pivot arms 8-9 are so arranged that the wheel' axle 15 as seen in the normal moving direction M of the vehicle is located in front of the pivot axis 14 of the corresponding pivot arm with respect to the chassis. However, the axles 15 are located behind the pivot axis 14 for the pivot arms 10-13.
The hydraulic cylinders 16-21 are for cross country driving coupled or may be coupled for mutual cooperation in the closed circuit illustrated in Fig 6. The hydraulic fluid volume in the circuit is suitably so adjusted that the vehicle, when it is located on a ground being substantially horizontal, has its pivot arms 8-13 located in such an intermediate position -that the pivot arms have freedom to move for pivoting downwardly as well as upwardly.
In the closed circuit according to Fig 6 cylinders 16, 18, 20 and 17, 19, 21, respectively, of the pivot arms arranged on each side of the vehicle have their first rooms 28, 30, 32 and 29, 31, 33, respectively, communicating with each other by means of a conduit 40 and 41, respectively. However, the rooms 28, 30, 32 on one side of the vehicle are separated from the rooms 29, 31', 33 on the other side of the vehicle. The front end of the vehicle is in Fig 6 indicated by F, while the rear end is indicated by B. The wheels 1-6 suitably form three pairs, each of which has wheels arranged directly opposite each other on opposite sides of the vehicle. In this example the hydraulic cylinders 16, 17 for the two front pivot arms 8, 9 have their second hydraulic fluid rooms 34, 35 communicating with each other through a conduit 42. Furthermore, the two rear hydraulic cylinders 18, 20 and 19, 21, respectively, on each side of the vehicle are mutually interconnected by means of conduits 43 and 44, respectively, which establish communication between the second hydraulic fluid rooms 36, 38 and 37, 39, respectively, of the respective cylinder. Finally, there is a connection 45 joining the conduits 43, 44 and more exactly achieving that all the second rooms 36-39 of the four rear cylinders 18-21 communicate mutually.
A driver compartment 46, for instance a cabin, is in the example arranged close to the front end. In the region of the four rear pivot arms 10-13 the vehicle has a load carrier arrangement 47, which in the illustrated case of a wood transporting vehicle may comprise conventional timber embankments and posts.
The vehicle has a front member 48 and a rear member 49, said members being mutually interconnected by means of a hinge forming a substantially vertical axis 51. The members 48, 49 may by means of power means, for example hydraulic cylinders 52, be rotated with respect to each other about the axis 51 for stee¬ ring the vehicle. The front member 48 has in this case two pivot arms 8, 9 carrying wheels, while the rear member 49 has four pivot arms 10-13 carrying wheels.
The closed circuit according to Fig 6 functions in the following way on driving in an irregular country: when for instance the vehicle starts from a horizontal position according to Fig l and drives over a stone or an elevation with the left front wheel 1, the corresponding pivot arm 8 will be pivoted upwardly with respect to the chassis while compressing the corresponding hydraulic cylinder 16. This means that hydraulic fluid from its room 28 is pressed through the conduit 40 into the rooms 30, 32 of the hydraulic cylinders 18, 20, so that the hydraulic cylin¬ ders 18, 20 are extended having a pivoting downwardly of the pivot arms 10, 12 with respect to the chassis as a result. An automatic balancing of the cylinders 18 and 20 takes place by the fact that the one indicated by 18 will be extended and accordingly pivot its pivot arm 10 downwardly more than the. hydraulic cylinder 20. The volume of the rooms 36, 38 of the cylinders 18 and 20 is at the same time reduced, so that hydra¬ ulic fluid is pressed through the conduits 43, 45 and 44 into the rooms 37, 39 of the cylinders 19, 21 arranged on the other side of the vehicle. This gives rise to a shortening of the cylinders 19, 21 at the same time as hydraulic fluid from their rooms 31 and 33 is pressed through the conduit 41 into the cylinder 17 at the right front wheel, which causes this cylinder to be extended and presses the right front wheel downwardly against the ground, while hydraulic fluid from the cylinder 17 passes through the conduit 42 into the room 34 of the cylinder 16. Expressed in another way, the cylinder 16 of the wheel going over the stone will be shortened, the rear cylinders 18, 20 on the same side will be extended, the cylinders 19, 21 located opposite thereto on the other side of the vehicle will be shortened and the cylinder 17 opposite to the cylinder 16 on the other side of the vehicle will be extended. This means that the chassis 7 of the vehicle is not inclined to such a great extent that would be the case if the pivot arm 8 at the left side of the front of the vehicle had not been pivoted upwardly with respect to the chassis and if the pivot arms 10, 12 on the left side in the rear of the vehicle and the pivot arm 9 on the right side in the front of the vehicle had not been pivoted with respect to the vehicle chassis 7, so that this at these loca¬ tions had been raised with respect to the ground. It appears that on each side of the vehicle hydraulic fluid from the two front hydraulic cylinders 16 and 17 will be distributed upon the rear hydraulic cylinders 18, 20 and 19, 21, respectively, when the front wheels 1, 2 drive over elevations and as a consequence of that the corresponding pivot arms 8, 9 are pivoted upwardly with respect to the vehicle chassis.
When one of the four rear wheels 3-6 drives over an elevation the following will take place: it is assumed that the wheel 3 on the pivot arm 10 is moving upwardly with respect to the chassis 7 as a result of a stone. Accordingly, hydraulic fluid is pressed from its cylinder 18 primarily into the room 38 of the cylinder 20, so that the cylinder 20 is extended. Depending on the load conditions it may occur that the cylinder 20 is exten¬ ded substantially as much as the cylinder 18 is shortened, and in such a case the" cylinders 18 and 20 will substantially give the pivot arms 10, 12 and the wheels associated therewith a character of an hydraulic bogie. Should hydraulic fluid from the room 30 also be transferred to the .room 28 of the cylinder 16 this cylinder will be extended and hydraulic fluid is transfer¬ red into the room 35 in the cylinder 17 oppositely located, which has the consequence that this is shortened to a correspon¬ ding extent at the same time as hydraulic oil from its room 29 is transferred to the cylinders 19, 21 of the two right rear wheels 4, 6, so that these cylinders are slightly extended. At the same time hydraulic fluid is pressed from their rooms 37, 39 into the room 36 of the cylinder 18 (since in the practice also the cylinder 20 will be at least slightly extended) .
It appears from above that independently of which of the wheels of the vehicle is moving upwardly because of an obstacle the resulting movement of the vehicle chassis 7 will be considerably smaller than the one which would be created in absence of the circuit enabling communication between the hydraulic cylinders in the way illustrated in Fig 6.
The embodiment according to Fig 7 corresponds to the one illu¬ strated in Fig 6 excepted for that two further cylinders 53, 54 are illustrated here, which in the practice could be arranged on the front vehicle member 48 illustrated in Fig 1 besides the cylinders 16 and 17 already located there. The cylinders 53 and 54 cooperates in an analogous way with pivot arms, which carry wheels and are constructed in principally the same way as the pivot arms 8-13 described above. The hydraulic fluid rooms 55, 56 of the cylinders 53, 54 are through conduits 40 and 41, respectively, united with the other corresponding hydraulic fluid rooms of the cylinders on the same respective side of the vehicle. The other hydraulic fluid rooms 57 and 58, respecti¬ vely, in the cylinders 53, 54 are through conduits 59 and 60, respectively, united with the second hydraulic fluid rooms 34 and 35, respectively, of the adjacent cylinders 16 and 17, respectively. As before there is the connection 42, which connects all second hydraulic fluid rooms 34, 35, 57, 58 in the cylinders belonging to the four front pivot arms carrying wheels of the vehicle together.
The function of the embodiment according to Fig 7 corresponds principally to the one already described by means of Fig 6 with the exception that the four cylinders 16, 17 and 53, 54 for the four front pivot arms' of the vehicle will also function as hydraulic bogie in a similar way as . described for the four cylinders 18-21 for the four rear pivot arms 10-13 carrying wheels in the embodiment according to Fig 6.
The rear chassis member 49 comprises two chassis portions 61, 62, namely a front 61 and a rear 62, which are mutually pivo¬ tally interconnected through a hinge 63 forming a substantially vertical pivot axis. The front chassis portion 61 has pivot arms 10, 11 and the wheels 3., 4 carried thereby, while the rear •chassis portion 62 has pivot- arms 12, 13 and wheels 5, 6.
As it appears most clearly from Fig 1, the pivot arms 10, 11 and 12, 13, respectively, on the chassis portions 61, 62 of the rear chassis member 49 are facing or directed in the same direction, namely rearwardly. The pivot arms 8, 9 on the front chassis member 48 are directed forwardly in the normal driving direction of the vehicle. The words "forwardly" and "rearwardly" concern the main direction of the pivot arms from their pivot axis 14 and to their free ends, and it is of course comprised that the pivot arms may be more or less inclined with respect to the horizontal plane.
In order to obtain a favourable carrying capacity it is prefer¬ red that the pivot arms 10, 11 on the front portion 61 of the rear chassis member 49 have their pivot axis 14 located close to the front end of the last mentioned chassis portion 61. Also the pivot arms 12, 13 on the rear chassis portion 62 have their pivot axis 14 arranged at the front end of the rear chassis portion.
The load carrier arrangement 47 comprises in this example the timber embankments 64 and posts 65 already mentioned. The arrangement 47 may also comprise a conventional gate 66, a central longitudinal beam 67 and two further longitudinal beams 68 (Fig 4). It will be suitable to have the embankments 64 dis- placeable along the beams 67, 68 and securable in desired posi¬ tions, although this does not appear from Fig 4. It is preferred that the load carrier arrangement 47 forms a rigid continuous unit.
The load carrier arrangement 47 is rotatably connected to the chassis portion 61 by means of a connection 69 forming a sub¬ stantially vertical axis of rotation 70. The arrangement 47 comprises a portion 71 projecting in front of the gate 66, said connection 69 being arranged at this portion. It is for the rest located in the proximity of the front end of the chassis portion 61, for instance immediately behind the axis of rotation 51.
Furthermore, the arrangement 47 is rotatably connected to the chassis portion 62 by means of a connection 72 (Fig 2 and 4) forming a substantially vertical axis of rotation 73. The connection 72 is arranged in the region of the rear end of the arrangement 47 and of the chassis portion 62. At least one of the connections 69, 72 are arranged to allow relative movement of the arrangement 47 and the chassis portion in question in the longitudinal direction of the arrangement 47 or the chassis portion. In this example the rear connection 72 is the one that is designed to allow this longitudinal movement.
The connection 72 comprises a first connecting means 74 on the load carrier arrangement 47- and a second connecting means 75 on the chassis portion 62. The means 74 has the form of a guide extending along the arrangement 47, along which guide the means 75 is displaceably movable on relative pivoting of the chassis portions 61 and 62. The guide 74 is in the example arranged in the beam 67 of the load carrier arrangement. This may have the character of a box girder, which have an internal, room and a slit 76 in its lower wall. The means 75 has the character of an extension fixed on the chassis portion 62, said extension having a shaft portion received in the slit 76 and a head having a larger width than the slit 76 and being received in the internal room of the beam 67. The shaft portion of the extension 75 forms in cooperation with the slit 76 the vertical axis of rotation 73 and the head of the extension cooperates with a portion of the beam 67 adjacent to the slit 76 so as to establish a connection preventing the load carrier arrangement from tilting laterally with respect to the chassis portion 62.
The chassis portion 62 is arranged to support a projecting portion of the load carrier arrangement 47 from below. In this example a support plate 77 is arranged on the chassis portion 62 and the beam 67 bears displaceably thereon.
As it appears from Fig 1, the vehicle has a loading crane 78. This has a base member 79 which is rotatable about a substan¬ tially vertical axis. It is intended that this axis in this example coincides with the axis 70. The device may be such that the load carrier arrangement 47 is rotatable with respect to the chassis portion 61 by means of a suitable axis arrangement and furthermore, the crane 78 is rotatably carried by the load carrier arrangement 47, more exactly by its front portion 71. However, a device may also be such that the crane 78 is not carried by the load carrier arrangement 47 but by an axis arrangement secured on the chassis portion 61 and projecting through the load carrier arrangement 47. However, it is advan¬ tageous that the crane 78 is so connected to the load carrier arrangement 47, for instance by being mounted on this, that the crane 78 follows the load carrier arrangement 47 in the rota¬ tional movement thereof about the axis of rotation 70.
To this point of the description it appears that the load carrier arrangement 47 would have a free bearing extension between the connection 69, 72. However, further support points may be arranged between the load carrier arrangement.47 and the chassis portion 61 and/or chassis portion 62, but these support points have to be designed so as to allow relative movement in the lateral direction of the vehicle between the load carrier arrangement and the respective chassis portions 61, 62.
It appears from Fig 3 how the axis of rotation 51 and 63 give the vehicle excellent driving manners, since its wheels on each side of the vehicle will carefully follow one turning radius each. Furthermore, it appears from Fig 3 how the chassis por¬ tions 61 and 62 between the connections 69 and 72 will move laterally with respect to the arrangement 47 on taking curves.
It is preferred that the hinge 63 and preferably also the hinge 50 only allow rotation about a substantially vertical axis, i.e. not any rotation about any substantially horizontal axis.
Power means 80, for instance hydraulic cylinders, act between the two chassis portions 61, 62 for determining the pivot angle therebetween. The power means 80 are suitably adjustable in a "floating position", in which they allow free relative pivot movement between the chassis portions 61 and 62. The power means 80 are furthermore arranged to by force pivot the chassis portions 61 and 62 with respect to each other in dependence of the pivot movement desired by the driver. A controlling appara¬ tus acting automatically may be arranged to control the power means 80 to adjust the pivot angle between the chassis portions 61 and 62 in the same respect as the pivot angle produced by the power means 52 between the front chassis member 48 and the front chassis portion 61, but preferably so that the first mentioned pivot angle is smaller than the last mentioned one.
DETAILED DESCRIPTION OF THE EMBODIMENT ACCORDING TO FIG 8 AND 9
With the exception of the points which will be described closer, the embodiment according to Fig 8-9 corresponds completely to the previous embodiment and in the corresponding parts the same reference numerals will be used. The vehicle has as before a load carrier arrangement 47 forming a rigid continuous unit. This comprises as in the previous embodiment load, embankments 64 which here are three in number, a gate 66 and stiffening beams 67, 68. The connection 69, which forms the substantially verti¬ cal axis of rotation 70 between the load carrier arrangement 47 and the front chassis portion 61 of the rear chassis member 49 is as before arranged at a portion 71 of the load carrier arrangement projecting in front of the gate 66 and furthermore so located that the axis 70 is concentric or almost concentric to the vertical axis of rotation formed by the hinge 50 between the front chassis member 48 and the front chassis portion 61 of the rear chassis member. The loading crane 68 is as before connected to the load carrier arrangement 47 so as to follow this in the relative rotating movement between this and the chassis portion 61. Since the connection 69 is arranged at the front end of the front chassis portion 61 of the rear chassis member and the other connection 72 (compare with Fig 2 and 3) is arranged at the rear end of the rear chassis portion 62 of the rear chassis member and, accordingly, the distance may be considerable between the connection 69 and 72, the load carrier arrangement 47 is supported between the first and second connec¬ tions 69, 72 with respect to the front and/or rear chassis portion 61, 72 of the rear chassis member 49 by means of support means 81. Such support means 81 is illustrated in the example as acting between the load carrier arrangement and the front chassis portion 61, but similar support means could also be arranged between the load carrier arrangement and the rear chassis portion 62. The support means 61 suitably consist of rollers, which may be arranged in connection with one of the embankments 64, suitably the foremost. These rollers 81 are in the example arranged on the load carrier arrangement so as to rolingly contact support surfaces 82 on the front chassis portion 61. It is preferred that the axes of rotation of the rollers at least substantially intersect the substantially vertical axis of rotation 70 (Fig 9) formed by the first connec¬ tion 69, whereby a regular rolling contact will be established between the rollers 81 and their supporting surfaces 82. A condition for the function aimed at is that the hinge 63 between the front and rear chassis portions 61 and 62 of the rear chassis member 49 only allow relative movement "about a substan¬ tially vertical axis and not any relative rotation about any horizontal axis. The corresponding is for the rest valid also for the hinge 50.
Thus, the load carrier arrangement 47 will in other words be supported by the vehicle at its front and rear ends by means of the connection 69 and 72 and the support means or wheels 81 exert a bearing function against the chassis of the vehicle therebetween.
POSSIBLE MODIFICATIONS OF THE INVENTION
The device described may of course be modified in several ways within the scope of the inventional idea. Instead of wheels 1-6 the vehicle may for instance have tracks known per se or arbi¬ trary ones for contact against the ground. Finally the load carrier arrangement 47 may have a very varying character. It could for instance have the character of a wagon-bridge or a container or any other carrier for an arbitrary load, e.g. machine equipment, such as forestry machines etc., arranged more or less stationary thereon.

Claims

Claims
1. A device for load vehicles having a chassis (7) comprising a front member (48) having wheels or the like (1, 2) and -a rear member (49) having wheels or the like (3-6), said two chassis members being mutually pivotally interconnected through a hinge (50) forming a substantially vertical pivot axis (51), a load carrier arrangement (47) being arranged on the rear chassis member (49) , c h a r a c t e r i z e d in that the rear chassis member (49) comprises two chassis portions (61, 62), namely a front and a rear portion, which are mutually pivotally interconnected through- a hinge (63) forming a substantially vertical pivot axis, and that each of said portions (61, 62) has wheels or the like (3, 4 and 5, 6, respectively).
2. A device according to claim 1, c h a r a c t e r i z e d in that the wheels or the like (1, 2) of the front chassis member (48) are individually suspended by means of a respective pivot arm (8, 9) vertically pivotal.
3. A device according to claim 1 or 2, c h a r a c t e r i z e d in that the wheels or the like (3-6) of the front and rear chassis portions (61, 62) of the rear chassis member (49) are individually suspended by means of a respective pivot arm (10-13) vertically pivotal.
4. A device according to claim 3, c h a r a c t e r i z e d in that the pivot arms (10-13) on the chassis portions (61, 62) of the rear chassis member are direc¬ ted substantially rearwardly.
5. A device according to claim 3 or 4, c h a r a c t e r i z e d in that the pivot arms (8, 9) on the front chassis member (48) are directed substantially forwardly.
6. A device according to any of the preceding claims, c h a r a c t e r i z e d in that the load carrier arrangement (47) is rotatably connected to the front chassis portion (61) of the rear chassis member (49) by means of a first connection (69) forming a substantially vertical axis of rotation (70).
7. A device according to any of the preceding claims, c h a r a c t e r i z e d in that the load carrier arrangement (47) is rotatably connected to the rear chassis portion (62) of. the rear chassis member (49) by means of a second connection (42) forming a substantially vertical axis of rotation (73).
8. A device according to claims 6 and 7, c h a r a c t e r i z e d in that at least one of the first and second connections is arranged to allow relative movement of the load carrier arrangement (47) and the chassis portion in ques¬ tion in the longitudinal direction of the load carrier arrange¬ ment or this chassis portion.
9. A device according to claim 8, c h a r a c t e r i z e d in that the one of the first and second connections allowing the relative longitudinal movement is the one (72) between the load carrier arrangement (47) and the rear chassis portion (62) of the rear chassis member.
10. A device according to claim 8 or 9, c h a r a c t e r i z e d in that the one (72) of the first and second connections allowing relative longitudinal movement comprises a first connecting means (74, 76) on the load carrier arrangement and a second connecting means (75) on the chassis portion in question, and that one of the connecting means has the form of a guide, along which the remaining connecting means is displaceably movable.
11. A device according to any of the preceding claims, c h a r a c t e r i z e d in that the rear chassis portion (62) of the rear chassis member is arranged to support a projecting portion of the load carrier arrangement (47) from below.
12. A device according to any of the preceding claims, c h a r a c t e r i z e d in that power means (80) are arranged for determining the pivot angle between the front and rear chassis -portions (61, 62) of the rear chassis member.
13. A device according to any of the preceding claims in vehic¬ les having at least six wheels, at least three of which (1, 3, 5 and 2, 4, 6, respectively) are arranged on each side of the vehicle and each of which is individually suspended in a chassis (7) of the vehicle by means of a respective vertically pivotal pivot arm (8-13), an hydraulic cylinder (16-20) being arranged between each of them and the vehicle chassis,' each cylinder having two hydraulic fluid rooms (28-33 and 34-39, respectively) located on opposite sides of a piston of the hydraulic cylinder, hydraulic fluid being compressed in a first (28-33) of the rooms so as to counteract such pivoting of the corresponding pivot arm that the wheel arranged thereon is raised with respect to the vehicle chassis, c h a r a c t e r i z e d in that the hydraulic• cylinders (16-21) are coupled or may be coupled for mutual cooperation in a closed circuit, in which the cylinders of the pivot arms (8, 10, 12 and 9, 11, 13, respectively) arranged on each side of the vehicle have there first rooms (28, 30, 32 and 29, 31, 33, respectively) communicating with each other, at least two hydraulic cylinders (16, 17) for at least two pivot arms (8, 9) arranged on opposite sides of the vehicle closer to the first end (F) of the vehicle than a second end (B) thereof having their second hydraulic fluid room (34, 35) communicating which each other, and at least two hydraulic cylinders (18, 20 and 19, 21, respectively) for the further pivot arms (10, 13 and 11, 13, respectively) on each side of the vehicle having their second rooms (36, 38 and 37, 39, respectively) communicating with each other as well as with the second rooms (37, 39 and 36, 38, respectively) of at least two hydraulic cylinders (19, 21 and 18, 20, respectively) arranged on the opposite side of the vehicle.
14. A device according to claim 13 having at least eight wheels, at least four of which are arranged on each side of the vehicle, c h a r a c t e r i z e d in that the hydraulic cylinders of the pivot arms arranged on each side of the vehicle have their first rooms (55, 28, 30, 32 and 56, 29, 31, 33, respectively) communicating with each other, and that the two front as well as the two rear pairs of pivot arms have the second rooms (57, 34; 58, 35; 36, 38; 37, 39) of their hydraulic cylinders communi¬ cating with each other.
15. A device according to claim 6, c h a r a c t e r i z e d in that the load vehicle has a loading crane (78), which is connected to the load carrier arrangement (47) so as to follow it in its rotational movement about the substantially vertical axis of rotation (70) formed by the first connection (69) between the load carrier arrangement and the front chassis portion (61) of the rear chassis member (49).
16. A device according to claim 15, c h a r a c t e r i e d in that the loading crane (78) is rotatably carried by the load carrier arrangement (47).
17. A device according to claim 16, c h a r a c t e r i z e d in that the loading crane (78) is arranged on the front portion of the load carrier arrangement (47).
18. A device according to any of the claims 15-17, c h a r a c t e r i z e d in that the load carrier arrangement (47) comprises timber embankments (64) and a gate (66) and that the loading crane (78) is rotatably carried by the load carrier arrangement (47) by means of a portion (71) thereof projecting in front of the gate (66).
19. A device according to any of the claims 3-5, c h a r a c t e r i z e d in that the pivot arms (10, 11) on the front portion (61) of the rear chassis member (49) have their pivot axis (14) located close to the front end of the last mentioned chassis portion.
20. A device according to any of the claims 3-5 or 19, c h a r a c t e r i z e d in that the pivot arms (12, 13) on the rear chassis portion (62) of the rear chassis member have their pivot axis (14) arranged at the front end of the rear chassis portion.
21. A device according to any of the claims 6-10, c h a r a c t e r i z e d in that the first connection (69) is located close to the front end of the -front chassis portion (61) of the rear chassis member.
22. A device according to claims 6 and 7, c h a r a c t e r i z e d in that further support points between the load carrier arrangement (47) and the front chassis portion (61) and/or the rear chassis portion (62) are arranged between the first and second connections (69, 72).
23. A device according to any of the preceding claims, c h a r a c t e r i z e d in that the load carrier arrangement (47) forms a rigid continuous unit.
24. A device according to claims 6 and 7, c h a r a c t e-r i z e d in that the load carrier arrangement is supported between the first and second connections (69, 72) with respect to the front and/or rear chassis portion (61, 62) of the rear chassis members (49) by means of support means.
25. A device according to claim 24, c h a r a c t e r i z e d in that the support means consist of rollers.
26. A device according to claim 25, c h a r a c t e r i z e d in that the rollers are arranged on the load carrier arrangement.
27. A device according to claim 25 or 26, c h a r a c t e r i z e d in that the axes of rotation .of the rollers generally intersect the substantially vertical axis of rotation (70) formed by the first connection (69).
EP91906714A 1990-03-20 1991-03-13 A device in vehicles Expired - Lifetime EP0551265B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
SE9000983A SE467965B (en) 1989-12-14 1990-03-20 Load-bearing vehicle system
SE9000983 1990-03-20
PCT/SE1991/000190 WO1991014610A1 (en) 1990-03-20 1991-03-13 A device in vehicles

Publications (2)

Publication Number Publication Date
EP0551265A1 true EP0551265A1 (en) 1993-07-21
EP0551265B1 EP0551265B1 (en) 1995-12-06

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US (1) US5366337A (en)
EP (1) EP0551265B1 (en)
CA (1) CA2078672C (en)
DE (1) DE69115285T2 (en)
FI (1) FI101525B (en)
WO (1) WO1991014610A1 (en)

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Also Published As

Publication number Publication date
EP0551265B1 (en) 1995-12-06
CA2078672A1 (en) 1991-09-21
FI101525B1 (en) 1998-07-15
FI101525B (en) 1998-07-15
FI924202A0 (en) 1992-09-18
FI924202A (en) 1992-09-18
DE69115285D1 (en) 1996-01-18
WO1991014610A1 (en) 1991-10-03
CA2078672C (en) 2002-05-14
US5366337A (en) 1994-11-22
DE69115285T2 (en) 1996-07-18

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